Method for analyzing usage of printers

ABSTRACT

The present invention provides a method for analyzing usage of printers. A method in accordance with an embodiment includes: obtaining from at least one printer information about a plurality of print tasks performed by each printer, wherein the information about print tasks at least contains information of print requesters, print document attributes, and print time of each of the print tasks; and transforming the information about print tasks into an organizational representation based on information of organizational structure containing the print requesters. In the present invention, entities having a costly pattern are identified by mining historical usage data of the printers, thus driving the redesign of business process associated with the entities, performing print policies optimization on each entity associated with the printers based on the mined historical usage data, thereby reducing unnecessary paper consumption.

CROSS-REFERENCE TO RELATED APPLICATIONS

This patent application is a continuation of co-pending patentapplication Ser. No. 12/327,185, filed on Dec. 3, 2008, which isincorporated herein by reference in its entirety.

TECHNICAL FIELD

The present invention relates to the data processing field, inparticular to a method for analyzing usage of printers.

RELATED ART

The average American office worker is estimated to use a sheet of paperevery 12 minutes—a ream per person every two and a half workingweeks—and to dispose of 100-200 pounds of paper every year. Thefinancial costs of paper extend far beyond just purchasing the paper.There are also costs associated with:

Printer and copier maintenance and breakdown restoration;

Storage—to store 2 million paper documents, an organization can expectto spend between $40,000 and $60,000 on filling cabinets alone. However,if those same documents are stored by using CD-ROMs, they could fit onfewer than ten CD-ROMs;

Lost documents postage;

Document obsolescence; and

Labor inefficiency.

Additionally, paper production is a significant contributor to airpollutants. Pulp and paper mills in the U.S. produce approximately245,000 metric tons of toxic air pollutants every year, which mayinclude volatile organic compounds, sulfur, absorbable organic halides,chloroform, dioxin, and furan. All of these toxins have known healthrisks. Worldwide, pulp and paper is the fifth largest industrialconsumer of energy, accounting for four percent of the world's energyuse, and the processes use more water to produce a ton of product thanany other industry. Overall, producing one ton of paper uses 98 tons ofvarious resources. To obtain the more information, see, for example,forestethics.org/pdf/redece.pdf.

There has been much prior work on the monitoring of printers to detectmalfunction, i.e., low toner, paper outage, etc., to manage printerresources. See e.g., U.S. Pat. No. 5,580,177, “Printer/client networkwith centrally updated printer drivers and printer status monitoring”, ST Gase, C R White, 1996, and U.S. Pat. No. 5,819,015, “Method andapparatus for providing remote printer resource management”, J KWedinger, J F Webb, G M Songer, C M Songer, M G Rivers, . . . , 1998.

Additionally, there has also been some prior work on mining e-mailmessages to discover relationships between groups of users. See e.g.,Li, W., Hershkop, S., and Stolfo, S. J. 2004, “Email archive analysisthrough graphical visualization”, Proceedings of the 2004 ACM Workshopon Visualization and Data Mining For Computer Security (Washington D.C.,USA, Oct. 29-29, 2004). VizSEC/DMSEC'04. ACM Press, New York, N.Y.,128-132.

However, the prior works do not consider monitoring of usage of printersat print request ID level, to drive business print policies or businessprocess redesign, so as to reduce unnecessary paper consumption forsaving energy.

SUMMARY OF THE INVENTION

The present invention provides a method for analyzing usage of printers,to identify entities having a costly print pattern by mining historicalusage data of the printers. The resultant information can be used todrive the redesign of the business processes associated with theentities and perform print policies optimization on each entityassociated with the printers based on the mined historical usage data,thereby reducing unnecessary paper consumption.

According to one aspect of the present invention, there is provided amethod for analyzing usage of printers, comprising: obtaining from atleast one printer information about a plurality of print tasks performedby each printer, wherein the information about print tasks at leastcontains information of a print requestor, print document attributes,and print time of each of the print tasks; and transforming theinformation about print tasks into an organizational representationbased on information of an organizational structure containing the printrequesters.

According to another aspect of the present invention, there is provideda method for analyzing usage of printers, comprising: obtaining from atleast one printer information about a plurality of print tasks performedby each printer, wherein the information about print tasks at leastcontains information of a print requestor, print document attributes,and print time of each of the print tasks; identifying a plurality ofhistorical print task equivalence classes from the information aboutprint tasks, wherein each of the historical print task equivalenceclasses comprises a plurality of historical print tasks involving thesame or similar documents; based on the information of print requestorand print time, obtaining a user sequence for each of the historicalprint task equivalence classes; and based on information of anorganizational structure containing the requesters, identifying usersequences each spanning a plurality of organizational units from aplurality of the user sequences respectively as an informal workflow.

According to still another aspect of the present invention, there isprovided an apparatus for analyzing usage of printers, comprising: aprint information mining unit configured to obtain from at least oneprinter information about a plurality of print tasks performed by eachprinter, wherein the information about print tasks at least containsinformation of a print requestor, print document attributes, and printtime of each of the print tasks; and an organizational representationgenerating unit configured to transform the information about printtasks into an organizational representation based on information oforganizational structure containing the print requesters.

According to a further aspect of the present invention, there isprovided an apparatus for analyzing usage of printers, comprising: aprint information mining unit configured to obtain from at least oneprinter information about a plurality of print tasks performed by eachprinter, wherein the information about print tasks at least containsinformation of print requestor, print document attributes, and printtime of each of the print tasks; an equivalence class identifying unitconfigured to identify a plurality of historical print task equivalenceclasses from the information about print tasks, wherein each of thehistorical print task equivalence classes comprises a plurality ofhistorical print tasks involving same or similar documents; an usersequence mapping unit configured to, based on the information of printrequestor and print time, obtain a user sequence for each of thehistorical print task equivalence classes; and an informal workflowidentifying unit configured to, based on information of organizationalstructure containing the requesters, identify user sequences eachspanning a plurality of organizational units from a plurality of theuser sequences respectively as an informal workflow.

BRIEF DESCRIPTION OF THE DRAWINGS

The features, advantages and purposes of the present invention will bebetter understood from the following description of the detailedimplementation of the present invention read in conjunction with theaccompanying drawings.

FIG. 1 is a flowchart of a method for analyzing usage of printersaccording to an embodiment of the present invention.

FIG. 2 is a flowchart of a process of analyzing usage of printers toidentify users having a costly pattern according to an embodiment of thepresent invention.

FIG. 3 is a flowchart of a process of analyzing usage of printers toidentify organizational units having a costly pattern according to anembodiment of the present invention.

FIG. 4 is a flowchart of a process of analyzing usage of printers toidentify informal workflows according to an embodiment of the presentinvention.

FIG. 5 is a flowchart of a process of analyzing usage of printer tooptimize print policies according to an embodiment of the presentinvention.

FIG. 6 is a block diagram of an apparatus for analyzing usage ofprinters according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Next, a detailed description of embodiments of the present inventionwill be given with reference to the drawings.

First, the method for analyzing usage of printers of the presentinvention will be described.

FIG. 1 is a flowchart of a method for analyzing usage of printersaccording to an embodiment of the present invention. As shown in FIG. 1,first at step 105, from one or more printers, information about aplurality of print tasks performed by the printers is mined. In anIntranet of an enterprise, for example, since printers are shared byusers over the enterprise, in order to distinguish the users who sendprint requests to the shared printers and perform print tasks, theinformation about print tasks mined from the shared printers shouldcontain, for each of the print tasks, at least such information as therequestor ID, as well as request size, time stamp and attributes ofprinted document used for subsequent analysis of entities having acostly pattern and optimization of print policies. Therein the requestorID may be identification or IP address of user device. In addition, theabove attributes of printed document may include file type, documentname, business process watermark, etc. Additionally, in addition to theabove attributes, the mined information about print tasks may furtherinclude printer ID, print characteristics, etc.

The printer ID is used to distinguish different printers in intranet ofan enterprise, while the print characteristics may contain color vs B/W,resolution, paper size, 1-sided vs 2-sided, etc. However, it is notlimited to this, in addition to the above information, the minedinformation about print tasks may certainly further contain more otherinformation. It can be appreciated by the person skilled in the art thatmining information about print tasks of the printers can be implementedby using existing technical means and known knowledge in the art, thereis no special limitation on this step in the present invention.

Next at step 110, based on the above mined information about printtasks, each of the historical print tasks is associated with acorresponding entity performing the print task. Specifically, at thisstep, each of the historical print tasks is associated with acorresponding user performing the print task by using the requestor IDsin the information about print tasks. Further, each of the usersperforming the historical print tasks is associated with theorganizational units he/she belongs to based on the organizationalstructure information containing these users, which may be obtained, forexample, from the records of the human resource management department ofthe enterprise. In addition, business processes can be associated withrespective corresponding organizational units by using business processwatermarks information (if available) in document attributes, and so on.

Next, at step 115, based on the above mined information about printtasks, entities having a costly pattern are identified by using amathematical algorithm. Specifically, the entities may be users,organizational units or informal workflows having a costly pattern,which will be detailed below.

The above mentioned mathematical algorithm used at this step maycomprise, but is not limited to, cluster analysis, time series analysisor network analysis, etc.

The identification result of this step may be used to drive redesign ofbusiness processes associated with the identified entities having acostly pattern so as to reduce business steps involving paperconsumption as far as possible.

At parallel step 120, print policy optimization is performed on variousentities associated with the above printers based on the informationabout print tasks.

The above is a description of a method for analyzing usage of printersof the present embodiment. It should be noted that the above steps 115and 120 are not interrelated, thus they may be performed in an arbitraryorder.

Next, as a specific example, a method for analyzing usage of printers toidentify users having a costly pattern according to the process of FIG.1 will be detailed.

FIG. 2 is a flowchart of a method for analyzing usage of printers toidentify users having a costly pattern according to an embodiment of thepresent invention. As shown in FIG. 2, first, at step 205, from one ormore printers, information about a plurality of print tasks performed bythe printers is mined. The information about print tasks mined from theprinters may contain, for each of the print tasks, at least suchinformation as the requestor ID as well as request size, time stamp, anddocument attributes used for subsequent analysis of users having acostly pattern.

Next, at step 210, based on the above mined information about printtasks, each of the historical print tasks is associated with acorresponding user performing the print task. Specifically, at thisstep, by using the requestor IDs in the information about print tasks,each of the historical print tasks represented by the information aboutprint tasks is associated with a corresponding user.

Next, at step 215, based on the above mined information about printtasks, statistics of print amounts over a specified time period areobtained for each of the above corresponding users by using, forexample, cluster analysis, time series analysis or network analysis.

At this step, the above specified time period may be one month, forexample. In addition, obtaining statistics of print amounts over thespecified time period, e.g., one month for each of the correspondingusers may contain one or more of the following steps: obtainingstatistics of the number of documents printed over the one month for theuser, obtaining statistics of the total size of documents printed overthe one month for the user, and obtaining statistics of the number oftimes a same document is printed over the one month for the user.

Further, at this step, for each of the users, statistics of the printamounts over the specified time period are obtained based on suchinformation as request size, time stamp and document attributesassociated with the user, which is contained in the information aboutprint tasks. Specifically, for each of the users, all print tasks overone month are identified based on the time stamp information associatedwith the user in the information about print tasks, and thus statisticsof the number of documents printed by the user over the one monthcorresponding to the print tasks are obtained; based on the time stampinformation and the document size information among the documentattributes, statistics of the total size of documents printed over theone month are obtained for the user; and based on the time stampinformation and the document name information among the documentattributes, statistics of the number of times a same document is printedover the one month are obtained for the user.

Next, at step 220, statistics of the print amounts over the specifiedtime period obtained for each of the users are compared to print amountspredefined for the user, to identify those users whose print amountsover the specified time period exceed their predefined print amounts.

Specifically, since statistics of the print amounts over the specifiedtime period obtained for each of the users may be one or more of thenumber of printed documents, the total size of the printed documents andthe number of times a same document is printed by the user over the onemonth, the print amounts predefined for the user should also containcorresponding metrics. That is, they may contain the following metrics:the number of documents the user is allowed to print over the one month(such as 100 documents), the total size of documents the user is allowedto print over the one month (such as 10M bytes), and the number of timesthe user is allowed to print a same document over the one month (such astwo times), etc.

Thus, at this step, for each of the users, statistics of the printamounts over the specified time period are compared to his/herpredefined print amounts, to identify those users whose print amountsover the specified time period exceed their predefined print amounts,and consider those users as ones having a costly pattern.

The above is a detailed description of the method for analyzing usage ofprinters to identify users having a costly pattern according to anembodiment. In this embodiment, by mining historical usage data ofprinters and associating them with users performing print tasks, usershaving a costly pattern can be identified.

Next, as another specific example, a method for analyzing usage ofprinters to identify organizational units having a costly patternaccording to the process of FIG. 1 will be described.

FIG. 3 is a flowchart of a method for analyzing usage of printers toidentify organizational units having a costly pattern according to anembodiment of the present invention. As shown in FIG. 3, first, at step305, from one or more printers, information about a plurality of printtasks performed by the printers is mined. The information about printtasks mined from the printers may contain, for example, for each of theprint tasks, at least such information as the requestor ID as well asrequest size, time stamp and document attributes used for subsequentanalysis of organizational units having a costly pattern.

Next, at step 310, based on the above mined information about printtasks, each of the historical print tasks is associated with acorresponding organizational unit, so as to transform the informationabout print tasks into an organization representation.

Specifically, at this step, by using the requestor IDs in theinformation about print tasks, each of the historical print tasksrepresented by the information about print tasks is associated with acorresponding user. Then based on the organizational structureinformation containing these users, which may be obtained, for example,from the records of the human resource management department of theenterprise, each of the users performing the historical print tasks isassociated with the organizational unit he/she belongs to. In thisembodiment, the obtained organizational structure may be represented asa tree structure, and each of the users performing the historical printtasks is associated with his/her corresponding organizational unit nodein the tree structure, thus forming an organizational representation.

Next, at step 315, based on the above mined information about printtasks, statistics of print amounts over a specified time period areobtained for each of the organizational unit nodes in the aboveorganizational representation by using, for example, cluster analysis,time series analysis or network analysis.

Specifically, at this step, the above specified time period may be onemonth, for example. In addition, obtaining statistics of print amountsover the specified time period, e.g., one month for each of theorganizational unit nodes in the above organizational representation maycontain one or more of the following steps: obtaining statistics of thenumber of documents printed over the one month for each of theorganizational unit nodes, obtaining statistics of the total size ofdocuments printed over the one month for each of the organizational unitnodes and obtaining statistics of the number of times a same document isprinted over the one month for each of the organizational unit nodes.

Further, at this step, for each of the organizational unit nodes,statistics of the print amounts over the specified time period areobtained based on such information as request size, time stamp anddocument attributes contained in the information about print tasks.Specifically, for each of the organizational unit nodes, all print tasksof all users over one month are identified based on the time stampinformation associated with the organizational unit node in theinformation about print tasks, and thus statistics of the number ofdocuments printed by the users over the one month corresponding to theprint tasks are obtained. Further, based on the time stamp informationand the document size information among the document attributes in theinformation about print tasks, statistics of the total size of documentsprinted by the users over the one month are obtained for theorganizational unit node. In addition, based on the time stampinformation and the document name information among the documentattributes, statistics of the number of times a same document is printedby the users over the one month are obtained for the organizational unitnode.

Next, at step 320, it is determined whether it is needed to derive printpolicies for one or more certain organizational units in the abovementioned organizational representation. If it is needed, the processproceeds to step 325, otherwise returns to step 330.

At step 325, with respect to each of the organizational units for whichderiving print policies is needed, the print policies are derived for itbased on the distribution of historical print frequencies and/or printrequest sizes of the organizational unit. Specifically, the derivationprocess is as follows: first, for each of the organizational units, theempirical distribution function of print requests is computed withrespect to each of the metrics such as the number of documents printedover a specified time period, the total size of documents printed overthe specified time period, and the number of times a same document isprinted over the specified time period, so as to obtain historical databased typical distributions of print frequencies and/or print requestsizes for the organizational unit; then, corresponding policies inrelation to the typical distributions are set, which prescribe that, forexample, the print amount of documents of its suborganization units overa specified time period can not exceed the 95 percentile of the printamount of documents of the organizational unit over the specified timeperiod.

At step 330, for each of the organizational units in the aboveorganizational representation, the print amounts over the specified timeperiod are compared to the print policies predefined or derived for theorganizational unit, to identify those organizational units of whichprint amounts over the specified time period depart from their printpolicies. Specifically, since statistics of the print amounts over thespecified time period obtained for each of the organizational units maybe one or more of the number of printed documents, the total size of theprinted documents and the number of times a same document is printedover the one month, the print policies predefined or derived for each ofthe organizational units may directly be metrics corresponding to theabove statistic. That is, the print policies predefined or derived foreach of the organizational units may comprise the following metrics:allowing the organizational unit to print a predefined number ofdocuments over the one month (such as 500 documents), allowing theorganizational unit to print a predefined total size of documents overthe one month (such as 50M bytes), and allowing the organizational unitto print a same document for predefined times over the one month (suchas 10 times), etc.

Of course, the print policies predefined or derived for each of theorganizational units may also in indirect metrics forms.

Thus, at this step, for each of the organizational units, the printamounts over the specified time period are matched to the print policiespredefined or derived for the organizational unit, to identify thoseorganizational units of which print amounts over the specified timeperiod depart from their print policies, and consider thoseorganizational units as ones having a costly pattern.

The above is a detailed description of the method for analyzing usage ofprinters to identify organizational units having a costly patternaccording to an embodiment. In this embodiment, by mining historicalusage data of printers and associating them with organizational unitsperforming print tasks, organizational units having a costly pattern canbe identified.

Next, as a further specific example, a method for analyzing usage ofprinters to identify informal workflows according to the process in FIG.1 will be described.

FIG. 4 is a flowchart of a method for analyzing usage of printers toidentify informal workflows according to an embodiment of the presentinvention. As shown in FIG. 4, first, at step 405, from one or moreprinters, information about a plurality of print tasks performed by theprinters is mined. The information about print tasks mined from theprinters may contain, for each of the print tasks, at least suchinformation as the requestor ID as well as time stamp and documentattributes used for subsequent analysis of informal workflows.

Next, at step 410, based on the document attributes information in theinformation about print tasks, a plurality of historical print taskequivalence classes are identified from the information about printtasks. Therein, each historical print task equivalence class comprises aplurality of historical print tasks involving same or similar documents.

Specifically, at this step, first, based on the document nameinformation contained in the information about print tasks, by using acluster analysis method such as a fuzzy name matching algorithm, clusteranalysis is performed on the document names to look for all equivalenceclasses of same or similar documents. Each equivalence class determinedby using the fuzzy name matching algorithm means all documents of whichnames are identical or similar among the documents involved in theinformation about print tasks.

Then, based on the information about print tasks, for each of theequivalence classes of same or similar documents, a plurality ofhistorical print tasks associated thereto are found, thus forming ahistorical print task equivalence class corresponding to the equivalenceclass.

An illustrative fuzzy name matching algorithm is described in, forexample, Paul Wu Horng-Jyh, Na Jin-Cheon and Christopher Khoo Soo-Guan,(Nanyang Technological University, 31 Nanyang Link, Singapore 637718),“A hybrid approach to fuzzy name search incorporating language-based andtext-based principles” (Journal of Information Science, Vol. 33, No. 1,3-19 (2007)), the contents of which are incorporated in entirety hereinby reference.

Next, at step 415, based on the requestor ID and time stamp informationin the information about print tasks, each of the historical print taskequivalence classes is mapped into a user sequence representing thecorresponding print flow of the historical print task equivalence class.

Specifically, at this step, for each of the historical print taskequivalence classes, by using the requestor ID information in theinformation about the historical print tasks in the historical printtask equivalence class in the information about print tasks, each of thehistorical print tasks is associated with a corresponding user. Then, inthe time stamp order of the historical print tasks in the historicalprint task equivalence class, the users of the various historical printtasks are associated together to form a user sequence. Thus, since theuser sequence is formed by associating the users of the historical printtasks in the historical print task equivalence class together in thetime stamp order of the historical print tasks, it can represent theprint flow of the historical print tasks. Thus, in this way, each of thehistorical print task equivalence classes can be mapped into a usersequence capable of representing the corresponding print flow of thehistorical print task equivalence class.

Next, at step 420, based on organizational structure information, usersequences each spanning a plurality of organizational units areidentified from the user sequences each representing a print flow, andrespectively considered as an informal workflow.

Specifically, at this step, first, based on the organizational structureinformation obtained, for example, from the records of the humanresource management department of the enterprise, users in each of theuser sequences are associated with respective organizational units theybelong to; further, user sequences each spanning a plurality oforganizational units are identified and respectively considered as aninformal workflow.

Further, the same or similar documents in the document equivalenceclasses corresponding to the identified user sequences each spanning aplurality of organizational units are considered as that participatingin informal workflows.

In addition, in an embodiment, at this step, first, the most commonlyoccurring user sequences are found from the obtained plurality of usersequences each representing a print flow, and then user sequences eachspanning a plurality of organizational units are identified from themost commonly occurring user sequences and respectively considered as aninformal workflow.

In addition, in other embodiments, after obtaining a plurality of usersequences each representing a print flow and before identifying informalworkflows, the plurality of user sequences may be condensed. Forexample, for a user sequence, a plurality of instances of a sameorganizational unit therein which have appeared in other user sequencesare removed.

The above is a detailed description of the method for analyzing usage ofprinters to identify informal workflows of the present embodiment. Inthis embodiment, by mining historical usage data of the printers andmapping it as user sequences each representing a corresponding printflow, informal workflows each spanning a plurality of organizationalunits which have printed same or similar documents can be identified.

Next, as another specific example, a method for analyzing usage ofprinters to optimize print policies according to the process of FIG. 1will be described.

FIG. 5 is a flowchart of a method for analyzing usage of printers tooptimize print policies according to an embodiment of the presentinvention. As shown in FIG. 5, first, at step 505, from one or moreprinters, information about a plurality of print tasks performed by theprinters is mined. The information about print tasks mined from theprinters may contain, for example, for each of the print tasks, at leastsuch information as requestor ID as well as request size, time stamp anddocument attributes used for subsequent analysis of policies.

Next, at step 510, based on the above mined information about printtasks, each of the historical print tasks is associated to acorresponding organizational unit so as to transform the informationabout print tasks into an organizational representation. Specifically,at this step, by using the requestor IDs in the information about printtasks, each of the historical print tasks is associated with acorresponding user. Then, based on the organizational structureinformation containing the users, which can be obtained, for example,from the records of the human resource management department of theenterprise, each of the users performing the historical print tasks isfurther associated with the organizational unit he/she belongs to. Inthis embodiment, the obtained organizational structure may berepresented, for example, as a tree structure, and further each of theusers performing the historical print tasks is associated with his/hercorresponding organizational unit node in the tree structure, thusforming an organizational representation.

Next, at step 515, for each of the organizational units in theorganizational representation, the forecast cost and actual cost data,forecast print amounts and actual print amounts data are mined. Theforecast cost and actual cost data can be obtained, for example, fromfinancial reporting records on forecast and actual cost of the financialdepartment of the enterprise.

At step 520, based, for example, on the forecast cost and actual costdata, the forecast print amounts and actual print amounts data and theinformation about print tasks, optimal print allocation policies aredetermined for each of the organizational units in the organizationalrepresentation.

The above is a detailed description of the method for analyzing usage ofprinters to optimize print policies. In the present embodiment, bymining historical usage data of the printers, print policy optimizationcan be performed on each of the organizational units associated with theprinters based on the mined historical usage data, thus reducingunnecessary paper consumption.

Under the same inventive concept, the present invention provides anapparatus for analyzing usage of printers, which will be described belowin conjunction with the drawings.

FIG. 6 is a block diagram of an apparatus for analyzing usage ofprinters according to an embodiment of the present invention. As shownin FIG. 6, an apparatus 60 for analyzing usage of printers of thepresent embodiment comprises print information mining unit 61,organizational representation generating unit 62, user identifyingmodule 63, organizational unit identifying module 64, workflowidentifying module 65 and policy optimizing unit 66.

Therein, the print information mining unit 61 is configured to mine,from one or more printers, information about a plurality of print tasksperformed by the printers. The information about print tasks maycontain, for example, for each of the print tasks, at least suchinformation as print requestor, print document attributes and printtime.

The organizational representation generating unit 62 is configured toassociate each of the print tasks to the organizational unit to whichthe user performing the print task belongs based on the print requestorinformation in the information about print tasks and the organizationalstructure information obtained, for example, from the human resourcemanagement department, thus transforming the information about printtasks into an organizational representation.

The user identifying module 63 is configured to identify users having acostly pattern based on the information about print tasks. As shown inFIG. 6, the user identifying module 63 may further comprise userassociating unit 631 for associating each of the historical print tasksto a corresponding user performing the print task based on the requestorinformation in the information about print tasks, statistic obtainingunit 632 for obtaining statistics of print amounts over a specified timeperiod for each of the users based on such information as print time anddocument attributes in the information about print tasks, and useridentifying unit 633 for identifying users whose print amounts over thespecified time period exceed predefined print amounts.

The organizational unit identifying module 64 is configured to identifyorganizational units having a costly pattern from the organizationalrepresentation based on the information about print tasks. As shown inFIG. 6, the organizational unit identifying module 64 may furthercomprises statistic obtaining unit 641 for obtaining statistics of printamounts over a specified time period for each of the organizationalunits in the organizational representation based on such information asprint time and document attributes in the information about print tasks,organizational unit identifying unit 642 for identifying organizationalunits of which print amounts over the specified time period depart fromprint policies from the organizational representation, and print policyderiving unit 643 for deriving print policies for one or moreorganizational units in the organizational representation based on thedistribution of historical print frequencies and/or print request sizesof the organizational unit(s).

The print amounts over the specified time period may comprise, forexample, one or more of the group consisting of: the number of documentsprinted over the specified time period, the total size of the documentsprinted over the specified time period, and the number of times a samedocument is printed over the specified time period.

The workflow identifying module 65 is configured to identity informalworkflows having a costly pattern based on the information about printtasks. As shown in FIG. 6, the workflow identifying module 65 mayfurther comprise an equivalence class identifying unit 651 foridentifying a plurality of historical print task equivalence classescorresponding to the information about print tasks by looking for allequivalence classes of same or similar documents through performingcluster analysis using a fuzzy name matching algorithm based on thedocument attributes in the information about print tasks, where each ofthe historical print task equivalence class comprises a plurality ofhistorical print tasks involving same or similar documents.

The workflow identifying module 65 may further comprise a user sequencemapping unit 652 for, with respect to each of the historical print taskequivalence classes, associating each of the historical print taskstherein with a user, and further associating these users together in thetime stamp order of the historical print tasks to form a user sequencecapable of representing the print flow of the historical print taskequivalence class based on the print requestor information in theinformation about print tasks, thereby mapping the historical print taskequivalence class into the user sequence representing its print flow,and an informal workflow identifying unit 653 for, based on theorganizational structure information obtained, for example, from a humanresource management department, identifying user sequences each spanninga plurality of organizational units from the plurality of user sequenceseach representing a print flow obtained by the user sequence mappingunit 652, the user sequences each spanning a plurality of organizationalunits being respectively considered as an informal workflow.

The informal workflow identifying unit 653 may identify user sequenceseach spanning a plurality of organizational units from a plurality ofthe most commonly occurring user sequences each representing a printflow, and takes them respectively as an informal workflow.

The policy optimizing unit 66 is configured to mine, for example, theforecast cost and actual cost data, and forecast print amounts andactual print amounts data for each of the organizational units in theorganizational representation, and based on the forecast cost and actualcost data, the forecast print amounts and actual print amounts data andthe information about print tasks, perform print policy optimization oneach of the organizational units.

The above is a detailed description of the apparatus for analyzing usageof printers of the embodiment. The apparatus 60 for analyzing usage ofprinters of the embodiment and its components can be implemented withspecifically designed circuits or chips or be implemented by a computer(processor) executing corresponding programs.

In addition, in an embodiment, the apparatus 60 for analyzing usage ofprinters may only comprise the print information mining unit 61, theorganizational representation generating unit 62, the organizationalunit identifying module 64 and the policy optimizing unit 66.

In another embodiment, the apparatus 60 for analyzing usage of printersmay only comprise the print information mining unit 61 and the workflowidentifying module 65.

While the method and apparatus for analyzing usage of printers of thepresent invention have been described in detail with some exemplaryembodiments, these embodiments are not exhaustive, and those skilled inthe art may make various variations and modifications within the spiritand scope of the present invention. Therefore, the present invention isnot limited to these embodiments; rather, the scope of the presentinvention is solely defined by the appended claims.

1. A method for analyzing usage of printers, comprising: obtaining fromat least one printer information about a plurality of print tasksperformed by each printer, wherein the information about print tasks atleast contains information of print requesters, print documentattributes, and print time of each of the print tasks; and transformingthe information about print tasks into an organizational representationbased on information of an organizational structure containing the printrequesters.
 2. The method for analyzing usage of printers according toclaim 1, wherein the step of transforming the information about printtasks into an organizational representation further comprises: based onthe information of print requesters in the information about print tasksand the information of organizational structure, associating each of theprint tasks with an organizational unit to which a user performing theprint task belongs in the organizational structure, to form theorganizational representation.
 3. The method for analyzing usage ofprinters according to claim 1, further comprising: identifyingorganizational units in which the print tasks depart from respectiveprint policies from the organizational representation.
 4. The method foranalyzing usage of printers according to claim 3, wherein the step ofidentifying organizational units in which the print tasks depart fromrespective print policies from the organizational representation furthercomprises: based on the information of print time and print documentattributes in the information about print tasks, obtaining, for each ofthe organizational units in the organizational representation,statistics of print amounts of its users over a specified time period;and identifying organizational units in which the print amounts over thespecified time period depart from their respective print policies fromthe organizational representation.
 5. The method for analyzing usage ofprinters according to claim 4, wherein the print amounts over thespecified time period comprise at least one print amount selected fromthe group consisting of: a number of documents printed over thespecified time period, a total size of documents printed over thespecified time period, and a number of times a same document is printedover the specified time period.
 6. The method for analyzing usage ofprinters according to claim 3, wherein the print policies arepredefined, and contain at least one print policy selected from thegroup consisting of: allowing the organizational unit to print apredefined number of documents over the specified time period, allowingthe organizational unit to print a predefined total size of documentsover the specified time period, and allowing the organizational unit toprint a same document for predefined times over the specified timeperiod.
 7. The method for analyzing usage of printers according to claim3, further comprising, before the step of identifying organizationalunits in which the print tasks depart from respective print policiesfrom the organizational representation, the step of: for one or moreorganizational units in the organizational representation, based on atleast one of a distribution of historical print frequencies and printrequests sizes of the organizational unit, deriving print policiestherefor.
 8. The method for analyzing usage of printers according toclaim 1, further comprising: based on the information about print tasks,optimizing the print policies for each of the organizational units inthe organizational representation.
 9. The method for analyzing usage ofprinters according to claim 8, wherein the step of optimizing the printpolicies for each of the organizational units in the organizationalrepresentation further comprises: mining forecast print amount data andactual print amounts data for each of the organizational units in theorganizational representation; and determining optimal print allocationpolicies for each of the organizational units based on the informationabout print tasks and the forecast print amounts and actual printamounts data thereof.
 10. The method for analyzing usage of printersaccording to claim 1, wherein the information about print tasks furthercomprises: at least one of a printer ID and print characteristics. 11.The method for analyzing usage of printers according to claim 1, whereinthe document attributes comprise: at least one of file type, documentname, document size, and business process watermark.
 12. A method foranalyzing usage of printers, comprising: obtaining from at least oneprinter information about a plurality of print tasks performed by eachprinter, wherein the information about print tasks at least containsinformation of print requesters, print document attributes, and printtime of each of the print tasks; identifying a plurality of historicalprint task equivalence classes from the information about print tasks,wherein each of the historical print task equivalence classes comprisesa plurality of historical print tasks involving the same or similardocuments; based on the information of print requestor and print time,obtaining a user sequence for each of the historical print taskequivalence classes; and based on information of organizationalstructure containing the requesters, identifying user sequences eachspanning a plurality of organizational units from a plurality of theuser sequences respectively as an informal workflow.
 13. The method foranalyzing usage of printers according to claim 12, wherein the step ofidentifying a plurality of historical print task equivalence classesfrom the information about print tasks further comprises: performingcluster analysis on documents involved in the information about printtasks by using a cluster analysis method, to obtain a plurality ofequivalence classes of the same or similar documents; and for each ofthe plurality of equivalence classes of the same or similar documents,based on the information about print tasks, obtaining a plurality ofassociated historical print tasks as a historical print task equivalenceclass corresponding to the equivalence class of the same or similardocuments.
 14. The method for analyzing usage of printers according toclaim 12, wherein the step of identifying user sequences each spanning aplurality of organizational units from a plurality of the user sequencesfurther comprises: identifying user sequences each spanning a pluralityof organizational units from most commonly occurring user sequencesamong the plurality of user sequences.